Your search keyword '"TANOWITZ, HERBERT B."' showing total 58 results

1. Trypanosomes

Author

Huang, Huan, primary, Williams, Tere, additional, Tanowitz, Herbert B., additional, Bacchi, Cyrus J., additional, Yarlet, Nigel, additional, and Weiss, Louis M., additional

Published

2019

2. List of Contributors

Author

Al-Hashemi, Jacob, primary, Amar, Salomon, additional, Babu, Subash, additional, Breitschwerdt, Edward B., additional, Brunson, Jerry L., additional, Buskiewicz, Iwona, additional, Campbell, Lee Ann, additional, Chung, Han-Oh, additional, Costa, Vivian Vasconcelos, additional, Cox, Dermot, additional, de Souza, Danielle da Gloria, additional, Desruisseaux, Mahalia S., additional, Doran, Kelly S., additional, Dugas, Tammy R., additional, Fairweather, DeLisa, additional, Fox-Robichaud, Alison E., additional, Garg, Nisha J., additional, Gavins, Felicity N.E., additional, Glover, Mitzi C., additional, Huber, Sally, additional, Khoretonenko, Mikhail V., additional, Kim, Jung Hwan, additional, Kordick, Dorsey L., additional, Machado, Fabiana S., additional, Martins Silva, Claudia Lucia, additional, Martins Teixeira, Mauro, additional, Narra, Hema P., additional, Nutman, Thomas B., additional, Robello, Carlos, additional, Rochwerg, Bram, additional, Rosenfeld, Michael E., additional, Sahni, Abha, additional, Sahni, Sanjeev K., additional, Schubert-Unkmeir, Alexandra, additional, Stokes, Karen Y., additional, Tanowitz, Herbert B., additional, Testerman, Traci L., additional, Walker, David H., additional, Wen, Jian-jun, additional, and Yipp, Bryan G., additional

Published

2016

3. Contributors

Author

Adams, Lewis, primary, Adler, Dan Elie, additional, Agusti, Alvar, additional, Akoumianaki, Evangelia, additional, Alberg, Anthony J., additional, Albertine, Kurt H., additional, Alexander, Barbara D., additional, Alfille, Paul H., additional, Anantham, Devanand, additional, Arenberg, Douglas A., additional, Ayas, Najib T., additional, Bagchi, Aranya, additional, Balmes, John Randolph, additional, Banaei, Niaz, additional, Barnett, Christopher F., additional, Baughman, Robert P., additional, Becklake, Margaret R., additional, Benditt, Joshua O., additional, Benowitz, Neal L., additional, Bhakta, Nirav R., additional, Bhave, Anant D., additional, Blanc, Paul D., additional, Bleecker, Eugene R., additional, Bove, Alfred A., additional, Bradley, T. Douglas, additional, Brambilla, Elisabeth, additional, Broaddus, V. Courtney, additional, Brochard, Laurent, additional, Brock, Malcolm V., additional, Brown, Kevin K., additional, Brunetta, Paul G., additional, Cadranel, Jacques, additional, Celli, Bartolome, additional, Chan, Edward D., additional, Channick, Richard N., additional, Chastre, Jean, additional, Cheng, Guang-Shing, additional, Chin, Kelly, additional, Chung, Kian Fan, additional, Clerici, Christine, additional, Colby, Thomas V., additional, Collard, Harold R., additional, Cool, Carlyne D., additional, Cordier, Jean-François, additional, Cordioli, Ricardo Luiz, additional, Corte, Tamera J., additional, Cottin, Vincent, additional, Courey, Mark S., additional, Cowie, Robert L., additional, Crothers, Kristina, additional, Curley, Gerard F., additional, Daley, Charles L., additional, Davis, J. Lucian, additional, De Marco, Teresa, additional, Deresinski, Stanley C., additional, Deroose, Christophe, additional, Dobbs, Leland G., additional, Dooms, Christophe, additional, Downey, Gregory P., additional, du Bois, Roland M., additional, Dulohery, Megan M., additional, Effros, Richard M., additional, Eisner, Mark D., additional, Elicker, Brett M., additional, Ernst, Armin, additional, Ernst, Joel D., additional, Fahy, John V., additional, Fedullo, Peter F., additional, Feller-Kopman, David, additional, Fenster, Brett E., additional, Fingerlin, Tasha E., additional, Fontenot, Andrew P., additional, Frankel, Stephen K., additional, Garcia, Joe G.N., additional, Gebhart, G.F., additional, Gilstrap, Daniel Lee, additional, Girard, Nicolas, additional, Gladwin, Mark T., additional, Glenny, Robb W., additional, Gold, Warren M., additional, Gotway, Michael B., additional, Grasselli, Giacomo, additional, Greenberg, James M., additional, Griffith, David E., additional, Gruden, James F., additional, Han, MeiLan King, additional, Henderson, William, additional, Hill, Nicholas S., additional, Hoover, Wynton, additional, Hopewell, Philip C., additional, Horan-Saullo, Jennifer L., additional, Horner, Richard L., additional, Huang, Laurence, additional, Huchon, Gérard, additional, Inoue, Yoshikazu, additional, Iseman, Michael D., additional, Jackson, James E., additional, Jakubzick, Claudia V., additional, Janssen, Julius P., additional, Jett, James R., additional, Jones, Kirk, additional, Judson, Marc A., additional, Kato-Maeda, Midori, additional, Kavanagh, Brian P., additional, Keshavjee, Shaf, additional, Kim, Kami, additional, Kimoff, R. John, additional, King, Talmadge E., additional, Klein, Jeffrey S., additional, Koth, Laura L., additional, Kotloff, Robert M., additional, Kraft, Monica, additional, Küpeli, Elif, additional, Laffey, John G., additional, Lapinsky, Stephen E., additional, Lazarus, Stephen C., additional, Lee, Frances Eun-Hyung, additional, Lee, Jarone, additional, Lee, Y.C. Gary, additional, Lee, Warren L., additional, Lee-Chiong, Teofilo L., additional, Lemière, Catherine, additional, Light, Richard W., additional, Limper, Andrew H., additional, Loddenkemper, Robert, additional, Lugogo, Njira, additional, Luisetti, Maurizio, additional, Luks, Andrew M., additional, Luyt, Charles-Edouard, additional, Machado, Roberto F., additional, MacIntyre, Neil R., additional, MacNee, William, additional, Madtes, David K., additional, Maier, Lisa A., additional, Maldonado, Fabien, additional, Malhotra, Atul, additional, Martin, Thomas R., additional, Maskell, Nick A., additional, Mason, Robert J., additional, Massion, Pierre P., additional, Matthay, Michael A., additional, Matthay, Richard A., additional, Mayer, Annyce S., additional, Mazzone, Stuart B., additional, McCool, F. Dennis, additional, McCormack, Francis Xavier, additional, Mehta, Atul C., additional, Menéndez, Rosario, additional, Morgenthau, Adam S., additional, Morris, Alison, additional, Morris, Timothy A., additional, Muncey, Aaron R., additional, Murray, John F., additional, Myers, Jeffrey L., additional, Nadel, Jay A., additional, Nelson-Piercy, Catherine, additional, Neuman, Tom S., additional, Nosanchuk, Joshua D., additional, O'Riordan, Thomas G., additional, Ortega, Victor Enrique, additional, Panse, Prasad M., additional, Pao, William, additional, Paré, Peter A., additional, Park, David R., additional, Pastis, Nicholas J., additional, Patroniti, Nicolò, additional, Patterson, Karen C., additional, Pesenti, Antonio, additional, Pickens, Allan, additional, Pinsky, Benjamin A., additional, Pletcher, Steven D., additional, Powell, Frank L., additional, Que, Loretta G., additional, Redente, Elizabeth F., additional, Riches, David W.H., additional, Robinson, Bruce W.S., additional, Rodriguez-Roisin, Roberto, additional, Rose, Cecile S., additional, Routes, John M., additional, Rowe, Steven M., additional, Ryan, Clodagh M., additional, Ryu, Jay H., additional, Samet, Jonathan M., additional, Sandrock, Christian E., additional, Schoene, Robert B., additional, Schwartz, David A., additional, Schwartzstein, Richard M., additional, Schwarz, Marvin I., additional, Selman, Moisés, additional, Sequist, Lecia V., additional, Shannon, John M., additional, Shovlin, Claire L., additional, Silvestri, Gerard A., additional, Simonian, Philip L., additional, Singer, Jonathan P., additional, Slutsky, Arthur S., additional, Smaldone, Gerald C., additional, Solomon, George M., additional, Sorscher, Eric J., additional, Swenson, Erik R., additional, Tanner, Nichole T., additional, Tanowitz, Herbert B., additional, Torres, Antoni, additional, Trapnell, Bruce C., additional, Travis, William David, additional, Treanor, John J., additional, Tzelepis, George E., additional, Vandenplas, Olivier, additional, Vansteenkiste, Johan F., additional, Varghese, Thomas K., additional, Vestbo, Jørgen, additional, Wagner, Peter D., additional, Wahidi, Momen M., additional, Wallace, W. Dean, additional, Weiss, Louis M., additional, Weiss, Scott T., additional, Wells, Athol U., additional, West, John B., additional, White, Douglas B., additional, Wiener-Kronish, Jeanine P., additional, Wikenheiser-Brokamp, Kathryn A., additional, Woodruff, Prescott G., additional, Wunderink, Richard G., additional, Yeh, D. Dante, additional, Zemans, Rachel L., additional, Zimmerman, Leslie, additional, and Zuwallack, Richard L., additional

Published

2016

4. Trypanosoma cruzi and Chagas Disease: Innate Immunity, ROS, and Cardiovascular System

Author

Tanowitz, Herbert B., primary, Wen, Jian-jun, additional, Machado, Fabiana S., additional, Desruisseaux, Mahalia S., additional, Robello, Carlos, additional, and Garg, Nisha J., additional

Published

2016

5. Parasitic Infections

Author

Kim, Kami, primary, Weiss, Louis M., additional, and Tanowitz, Herbert B., additional

Published

2016

6. Baylisascaris larva migrans

Author

Kazacos, Kevin R., primary, Jelicks, Linda A., additional, and Tanowitz, Herbert B., additional

Published

2013

7. Preface

Author

Garcia, Hector H., primary, Tanowitz, Herbert B., additional, and Del Brutto, Oscar H., additional

Published

2013

8. Other helminthic infections

Author

Tanowitz, Herbert B., primary and Machado, Fabiana S., additional

Published

2013

9. Contributors

Author

Agosti, Jan, primary, Alter, Miriam J., additional, Anaya, Daniel A., additional, Ansdell, Vernon, additional, Babineaux, Michael James, additional, Bartlett, John G., additional, Bash, Margaret C., additional, Beach, Michael J., additional, Becker, Natasha S., additional, Blue, Sky R., additional, Blumberg, Dean A., additional, Bower, John R., additional, Bryant, Amy E., additional, Campbell, Grant L., additional, Chow, Anthony W., additional, Coffman, Thomas J., additional, Cohen, Stephanie E., additional, Congeni, Blaise L., additional, Coyle, Christina M., additional, Dhanireddy, Shireesha, additional, Drekonja, Dimitri M., additional, Dunne, Eileen F., additional, Engelman, Joseph, additional, Fischer, Marc, additional, Froom, Paul, additional, Garcia, Hector H., additional, Geisler, William M., additional, Gershman, Mark D., additional, Haditsch, Martin, additional, Hull, Christopher M., additional, Huppert, Jill S., additional, Isturiz, Raul E., additional, Johnson, James R., additional, Johnson, Katherine J., additional, Kauffman, Carol A., additional, Kesson, Alison Margaret, additional, Klausner, Jeffrey D., additional, Kollef, Marin H., additional, Kriesel, John D., additional, Kunz, Anjali N., additional, Kurrus, Thomas A., additional, Machado, Fabiana Simão, additional, MacPherson, Douglas William, additional, Marano, Nina, additional, Marcy, S. Michael, additional, Meade, Bruce D., additional, Meade, Kristin E., additional, Morris, Arden M., additional, Morrow, Lee E., additional, Moser, Benjamin D., additional, Moss, Nicholas J., additional, Newman, Lori Marie, additional, Nguyen, Thao U., additional, Park, James O., additional, Partridge, Susan, additional, Pottinger, Paul S., additional, Pratt, R. Douglas, additional, Raugi, Gregory, additional, Robertson, Kis, additional, Sanford, Christopher, additional, Sawyer, Robert G., additional, Schneider, Eileen, additional, Sejvar, James J., additional, Sethi, Sanjay, additional, Shadomy, Sean V., additional, Shimoni, Zvi, additional, Smith, Theresa L., additional, Spitters, Christopher Edward, additional, Spitzer, Austin L., additional, Staples, J. Erin, additional, Steele, Russell W., additional, Tan, Michael J., additional, Tanowitz, Herbert B., additional, Täuber, Martin G., additional, Toney, John F., additional, Tsai, Theodore F., additional, Tulloch, Luis G., additional, Vasser, Heather M., additional, Visvesvara, Govinda S., additional, Wald, Anna, additional, Watson, Christopher M., additional, Wolf, Patrick S., additional, Wolfe, Martin S., additional, Woodward, Joseph F., additional, Workowski, Kimberly, additional, Wyatt, Casi M., additional, Yeh, Sylvia H., additional, and Yoder, Jonathan S., additional

Published

2012

10. Chagas Disease

Author

Machado, Fabiana Simão, primary and Tanowitz, Herbert B., additional

Published

2012

11. Advances in Imaging of Animal Models of Chagas Disease

Author

Jelicks, Linda A., primary and Tanowitz, Herbert B., additional

Published

2011

12. The Vasculature in Chagas Disease

Author

Prado, Cibele M., primary, Jelicks, Linda A., additional, Weiss, Louis M., additional, Factor, Stephen M., additional, Tanowitz, Herbert B., additional, and Rossi, Marcos A., additional

Published

2011

13. Bioactive Lipids in Trypanosoma cruzi Infection

Author

Machado, Fabiana S., primary, Mukherjee, Shankar, additional, Weiss, Louis M., additional, Tanowitz, Herbert B., additional, and Ashton, Anthony W., additional

Published

2011

14. Contributors

Author

Abdalla, Saad H., primary, Acrani, Gustavo Olszanski, additional, Aggarwal, Rakesh, additional, Allos, Ban Mishu, additional, Alter, Miriam J., additional, Andrus, Jon K., additional, Angel, Juana, additional, Anstead, Gregory M., additional, Arathoon, Eduardo, additional, Arruda, Eurico, additional, Arthur, Ray R., additional, Atmar, Robert L., additional, Banura, Patrick, additional, Barbour, Alan G., additional, Barrett, Alan D.T., additional, Bausch, Dan, additional, Berk, Steven L., additional, Bessong, Pascal O., additional, Bia, Frank J., additional, Bicanic, Tihana, additional, Black, Robert E., additional, Bleck, Thomas P., additional, Boggild, Andrea K., additional, Bonnez, William, additional, Bresee, Joseph S., additional, Brown, Corrie, additional, Brown, Lillian B., additional, Brunetti, Enrico, additional, Bruschi, Fabrizio, additional, Bryant, Amy E., additional, Campbell, Carlos C. (Kent), additional, Castillo-Solorzano, Carlos, additional, Cetron, Martin S., additional, Chen, Ding-Shinn, additional, Chen, Pei-Jer, additional, Chen, Xiang-Sheng, additional, Cherian, Thomas, additional, Chua, K.B., additional, Cohen, Myron S., additional, Cooke, Graham S., additional, Cooper, Chester R., additional, Cooper, Edward S., additional, Coyle, Christina M., additional, Cross†, John H., additional, Dance, David A.B., additional, Danesi, Mustapha A., additional, Dawson, Chandler R., additional, de Martel, Catherine, additional, De Quadros, Ciro A., additional, de Queiroz Sousa, Anastacio, additional, de Silva, Nilanthi R., additional, de Souza, Alexandre Leite, additional, Dehio, Christoph, additional, Diemert, David J., additional, Dillingham, Rebecca, additional, Donelson, John E., additional, Dumler, J. Stephen, additional, Duncan, Joseph A., additional, DuPont, Herbert L., additional, Durand, Marlene L., additional, Eberhard, Mark L., additional, Eby, Joshua C., additional, Edwards, Charles, additional, Eidex, Rachel B., additional, Ellner, Jerrold J., additional, Enría, Delia A., additional, Ergonul, Onder, additional, Estes, Mary K., additional, Fahal, Ahmed Hassan, additional, Farmer, Paul E., additional, Faruque, A.S.G., additional, Feldman, Charles, additional, Feldmann, Heinz, additional, Fox, Kimberley K., additional, Franceschi, Silvia, additional, Franco, Manuel A., additional, Fulhorst, Charles F., additional, Garcia, Hector H., additional, Genta, Robert M., additional, Gilman, Robert H., additional, Glass, Roger I., additional, Goddard, Jerome, additional, Gotuzzo, Eduardo, additional, Graybill, John R., additional, Greenberg, Harry B., additional, Griffiths, Paul D., additional, Gubler, Duane J., additional, Guerrant, Richard L., additional, Gutierrez, Yezid, additional, Hewlett, Erik L., additional, Heymann, David L., additional, Hill, David R., additional, Ho, Mei-Shang, additional, Hoerauf, Achim M., additional, Hoffman, Paul S., additional, Hoffman, Stephen L., additional, Holbrook, Michael R., additional, Holland, Thomas L., additional, Hopkins, Donald R., additional, Hospenthal, Duane R., additional, Hotez, Peter J., additional, Hudnall, S. David, additional, Hughes, James M., additional, Hwang, Kao-Pin, additional, Isturiz, Raul E., additional, Jahrling, Peter B., additional, Jameel, Shahid, additional, Jeronimo, Selma M.B., additional, Jones-Lopez, Edward C., additional, Kabanova, Anna, additional, Kang, Gagandeep, additional, Karp, Christopher L., additional, Kazura, James W., additional, Kern, Peter, additional, Keusch, Gerald T., additional, Keystone, Jay S., additional, Khuroo, Mehnaaz S., additional, Khuroo, Mohammad S., additional, Kim, Ik-Sang, additional, King, Charles H., additional, Kirchhoff, Louis V., additional, Klion, Amy D., additional, Klugman, Keith P., additional, Kopecko, Dennis J., additional, Kosek, Margaret, additional, Koster, Frederick T., additional, Kozarsky, Phyllis E., additional, Ksiazek, Thomas G., additional, Kuhn, Jens H., additional, Lastovica, Albert J., additional, LeDuc, James W., additional, Leone, Peter A., additional, Levett, Paul N., additional, Levin, Michael, additional, Levine, Myron M., additional, Lima, Aldo A.M., additional, Lindeque, Gerhard, additional, Longworth, David L., additional, Mabey, David, additional, Maclean†, J. Dick, additional, Magill, Alan J., additional, Maguilnik, Ismael, additional, Maguiña, Ciro, additional, Maguire, James H., additional, Mahanty, Siddhartha, additional, Makino, Shinji, additional, Mandl, Christian W., additional, Marrie, Thomas J., additional, Marshall, Barry J., additional, Martin, Gregory J., additional, Matsumoto, Tadahiko, additional, Mawhorter, Steven D., additional, McCarthy, James S., additional, McGinnis, Michael R., additional, Mead, Paul S., additional, Meyers, Wayne M., additional, Miller, Robert F., additional, Miller, Samuel I., additional, Mills, James N., additional, Monath, Thomas P., additional, Moore, Christopher C., additional, Moore, Thomas A., additional, Morrill, J.C., additional, Morris, J. Glenn, additional, Murray, Megan, additional, Murrell, K. Darwin, additional, Nair, G. Balakrish, additional, Nash, Theodore E., additional, Nathan, Barnett R., additional, Negroni, Ricardo, additional, Nicholson-Weller, Anne, additional, Nucci, Marcio, additional, Nutman, Thomas B., additional, O’Farrell, Nigel, additional, Olano, Juan P., additional, Ooi, Eng Eong, additional, Ortega, Luis S., additional, Ortega, Ynés R., additional, Pallansch, Mark A., additional, Pape, Jean W., additional, Pappas, Georgios, additional, Parsonnet, Julie, additional, Pasvol, Geoffrey, additional, Peacock, Sharon J., additional, Pearson, Richard D., additional, Peeling, Rosanna W., additional, Pegues, David A., additional, Pépin, Jacques, additional, Peters, C.J., additional, Peterson, Kristine M., additional, Petri, William A., additional, Portaels, Françoise, additional, Proença-Módena, José Luiz, additional, Quinn, Thomas C., additional, Rao, G. Raghurama, additional, Raoult, Didier, additional, Rappuoli, Rino, additional, Rex, John H., additional, Reynolds, Steven J., additional, Ribeiro, José M.C., additional, Roilides, Emmanuel, additional, Rollin, Pierre E., additional, Ronald, Allan R., additional, Rota, Paul A., additional, Roy, Sharon L., additional, Ruiz-Tiben, Ernesto, additional, Ryan, Edward T., additional, Saha, Debasish, additional, Salam, Mohammed A., additional, Samie, Amidou, additional, Schachter, Julius, additional, Schantz, Peter M., additional, Scheld, W. Michael, additional, Schlaudecker, Elizabeth P., additional, Schwartz, David A., additional, Schwartzman, Joseph D., additional, Seña, Arlene C., additional, Sexton, Daniel J., additional, Sharp, Truman W., additional, Shieh, Wun-Ju, additional, Shoham, Shmuel, additional, Siddiqui, Afzal A., additional, Singh, Upinder, additional, Smith, David W., additional, Smith, Michael B., additional, Smoak, Bonnie L., additional, Smulian, A. George, additional, Snider, Cynthia B., additional, Solomon, Tom, additional, Sow, Samba O., additional, Sparling, P. Frederick, additional, Spencer, Lisa A., additional, Stanberry, Lawrence R., additional, Staples, J. Erin, additional, Steffen, Robert, additional, Steiner, Theodore S., additional, Steinhoff, Mark C., additional, Stevens, Dennis L., additional, Suh, Kathryn N., additional, Supparatpinyo, Khuanchai, additional, Szaniszlo, Paul J., additional, Tapia, Milagritos D., additional, Tanowitz, Herbert B., additional, Telford, Sam R., additional, Tesh, Robert B., additional, Thielman, Nathan M., additional, Torres-Vélez, Fernando J., additional, Tucker, Joseph D., additional, Valdez, Luis M., additional, Valenzuela, Jesus G., additional, van de Beek, Diederik, additional, Vasconcelos, Pedro F.C., additional, Visvesvara, Govinda S., additional, Wahl-Jensen, Victoria, additional, Walker, David H., additional, Walsh, Douglas S., additional, Walsh, Thomas J., additional, Walton, David A., additional, Walzer, Peter D., additional, Warren, Cirle A., additional, Weaver, Scott C., additional, Weiss, Louis M., additional, Weller, Peter F., additional, White, A. Clinton, additional, White, Nicholas J., additional, Wilkinson, Robert J., additional, Wilson, Mary E., additional, Wittner, Murray, additional, Zaidi, Anita K.M., additional, and Zaki, Sherif R., additional

Published

2011

15. Taenia and Other Tapeworm Infections

Author

Wittner, Murray, primary, White, A. Clinton, additional, and Tanowitz, Herbert B., additional

Published

2011

16. Adipose Tissue, Diabetes and Chagas Disease

Author

Tanowitz, Herbert B., primary, Jelicks, Linda A., additional, Machado, Fabiana S., additional, Esper, Lisia, additional, Qi, Xiaohua, additional, Desruisseaux, Mahalia S., additional, Chua, Streamson C., additional, Scherer, Philipp E., additional, and Nagajyothi, Fnu, additional

Published

2011

17. Introduction to Tapeworm Infections

Author

Tanowitz, Herbert B., primary, Wittner, Murray, additional, and White, A. Clinton, additional

Published

2011

18. Preface

Author

Weiss, Louis M., primary and Tanowitz, Herbert B., additional

Published

2011

19. CONTRIBUTORS

Author

Aaskov, John G., primary, Abdel-Rahman, Susan M., additional, Aebi, Christoph, additional, Ament, Marvin E., additional, Anderson, Marsha S., additional, Arnon, Stephen S., additional, Arvin, Ann M., additional, Atkins, Jane T., additional, Atmar, Robert L., additional, Baker, Carol J., additional, Baltimore, Robert S., additional, Barenkamp, Stephen J., additional, Barnett, Elizabeth D., additional, Basow, Robert D., additional, Beisel, William R., additional, Bell, Beth P., additional, Benard, Gil, additional, Bernstein, David I., additional, Bernt, Kathrin M., additional, Berry, Andrea A., additional, Bluestone, Charles D., additional, Blumer, Jeffrey L., additional, Bortolussi, Robert, additional, Boyanton, Bobby L., additional, Boyer, Kenneth M., additional, Bradley, John S., additional, Brady, Michael T., additional, Britt, William J., additional, Broderick, Annemarie, additional, Bronstein, David E., additional, Bruckner, David A., additional, Buckingham, Steven C., additional, Burgos, Ana, additional, Byington, Carrie L., additional, Campbell, Judith R., additional, Cantu, Samson, additional, Chacko, Mariam R., additional, Chapman, Louisa E., additional, Charrel, Rémi N., additional, Chen, Tempe K., additional, Cherry, James D., additional, Chesney, P. Joan, additional, Chilakapati, Madhuri C., additional, Chinen, Javier, additional, Ching, Natascha, additional, Clark, H. Fred, additional, Cleary, Thomas G., additional, Coats, David K., additional, Correa, Armando G., additional, Cross, J. Thomas, additional, Cutrer, William B., additional, Dagan, Ronald, additional, Dassey, David E., additional, Davis, Jeffrey P., additional, Demmler-Harrison, Gail J., additional, Dennehy, Penelope H., additional, Doan, Minh L., additional, Dobson, Simon R., additional, Drutz, Jan E., additional, Edelstein, Paul H., additional, Edwards, Kathryn M., additional, Edwards, Morven S., additional, English, B. Keith, additional, Estripeaut, Dora, additional, Fan, Leland L., additional, Feigin, Ralph D., additional, Ferry, George D., additional, Fiore, Anthony E., additional, Fischer, Philip R., additional, Fisher, Randall G., additional, Flynn, Patricia M., additional, Flynn, Thomas R., additional, Frenkel, Lisa M., additional, Friedman, Ellen M., additional, Friedman, Richard A., additional, Garcia, Lynne S., additional, Gavin, Patrick J., additional, Gerber, Michael A., additional, Gershon, Anne A., additional, Gilger, Mark A., additional, Gillespie, Susan L., additional, Glaze, Daniel G., additional, Glezen, W. Paul, additional, Glodé, Mary P., additional, Goldmann, Donald A., additional, Goldstein, Ellie J.C., additional, Goldstein, Nira A., additional, Gonzales, Edmond T., additional, Gorman, Mark P., additional, Green, Michael D., additional, Greenberg, David, additional, Groll, Andreas H., additional, Grose, Charles, additional, Gubler, Duane J., additional, Guerrero, Roberto A., additional, Guevara, Javier Nieto, additional, Gutierrez, Kathleen M., additional, Hall, Caroline Breese, additional, Halstead, Scott B., additional, Hamano, Shinjiro, additional, Hamill, Richard J., additional, Hammerschlag, Margaret R., additional, Hanson, I. Celine, additional, Harik, Nada, additional, Harrison, Rick E., additional, Healy, C. Mary, additional, Heininger, Ulrich, additional, Heresi, Gloria P., additional, Hiatt, Peter W., additional, Hill, Harry R., additional, Hilmers, David C., additional, Hoffman, Jill A., additional, Hon, Ellis K.L., additional, Hostetter, Margaret K., additional, Hotez, Peter J., additional, Hughes, Walter T., additional, Hulten, Kristina G., additional, Hunstad, David A., additional, Hurwitz, Eugene S., additional, Huskins, W. Charles, additional, Hyun, David Y., additional, Jackson, Mary Anne, additional, Jacobs, Michael R., additional, Jacobs, Richard F., additional, Jaeger, Jenifer L., additional, Jhaveri, Ravi R., additional, Johnston, Samantha, additional, Jonas, Maureen M., additional, Julapalli, Meena R., additional, Kaplan, Edward L., additional, Kaplan, Sheldon L., additional, Karpen, Saul J., additional, Kearns, Gregory L., additional, Keller, Margaret A., additional, Khoury, Chaouki K., additional, Kleiman, Martin B., additional, Klein, Jerome O., additional, Kline, Mark W., additional, Knapp, Katherine M., additional, Kokkinos, Heidi M., additional, Krause, Peter J., additional, Krilov, Leonard R., additional, Krogstad, Paul, additional, Kuhls, Thomas L., additional, de Lamballerie, Xavier, additional, La Pine, Timothy R., additional, Laurens, Matthew B., additional, Leach, Charles T., additional, Leggiadro, Robert J., additional, Lennon, Diana R., additional, Lentzsch-Parcells, Carolyn, additional, Leroy, Eric, additional, Leung, Chi Wai, additional, Levy, Moise L., additional, Lewis, Karen, additional, Losikoff, Phyllis T., additional, Lotze, Timothy Edward, additional, Lowry, Adam W., additional, Mailman, Timothy, additional, Maloney, Susan A., additional, Mascola, Laurene, additional, Mason, Edward O., additional, Matson, David O., additional, Mayer, Alan N., additional, Mazade, Marc A., additional, McAuley, James B., additional, McCracken, George H., additional, McIntosh, Kenneth, additional, McJunkin, James E., additional, McKee, Kelly T., additional, McLeod, Rima L., additional, McLin, Valérie A., additional, Mendes-Giannini, Maria José Soares, additional, Meyers, Wayne M., additional, Michaels, Marian G., additional, Michelow, Ian C., additional, Milisavljevic, Vladana, additional, Miller, Aaron M., additional, Miller, James N., additional, Miller, Marjorie J., additional, Mills, James N., additional, Minnich, Linda L., additional, Moran, Ann, additional, Murphy, James R., additional, Nag, Pratip K., additional, Nania, Joseph J., additional, Nataro, James P., additional, Nicome, Roger K., additional, Nielsen-Saines, Karin, additional, Nieves, Delma J., additional, Oberhelman, Richard A., additional, Ochoa, Theresa J., additional, Oermann, Christopher M., additional, Olteanu, Alina, additional, Overturf, Gary D., additional, Palazzi, Debra L., additional, Pannaraj, Pia S., additional, Patel, Janak A., additional, Patrick, Christian C., additional, Paysse, Evelyn A., additional, Pérez, Norma, additional, Peters, C.J., additional, Petri, William A., additional, Phillips, Brandon Lane, additional, Pickering, Larry K., additional, Piecuch, Joseph F., additional, Pinheiro, Francisco P., additional, Plotkin, Stanley A., additional, Pomeroy, Scott L., additional, Pong, Alice, additional, Pugatch, David L., additional, Purcell, Joan S., additional, Ramraj, Ramya, additional, Remington, Jack S., additional, Rodriguez, Carina A., additional, Romero, José R., additional, Ross, Benjamin A., additional, Ross, Lawrence A., additional, Rowen, Judith L., additional, Rupprecht, Charles E., additional, Sáez-Llorens, Xavier, additional, Saiman, Lisa, additional, Geme, Joseph W. St., additional, Sánchez, Pablo J., additional, Sass, Laura A., additional, Sattler, Carlos A., additional, Schulte, Danica J., additional, Schutze, Gordon E., additional, Seeborg, Filiz O., additional, Shapiro, Eugene D., additional, Shapiro, Nina L., additional, Shearer, William T., additional, Shehab, Ziad M., additional, Shenep, Jerry L., additional, Shields, W. Donald, additional, Shimizu-Cohen, Robyn, additional, Shulman, Stanford T., additional, Simos, Constantine, additional, Smith, Arnold L., additional, Soden, Jason S., additional, Staat, Mary Allen, additional, Starke, Jeffrey R., additional, Stechenberg, Barbara W., additional, Steinbach, William J., additional, Steinkuller, Paul G., additional, Stiehm, E. Richard, additional, Stovall, Stephanie H., additional, Suen, Jeffrey, additional, Sumaya, Ciro V., additional, Summer, Andrea P., additional, Swanson, Douglas S., additional, Tan, Tina Q., additional, Tanowitz, Herbert B., additional, Tesh, Robert B., additional, Toltzis, Philip, additional, Topazian, Richard G., additional, Tosi, Michael F., additional, Travassos da Rosa, Amelia P.A., additional, Tsai, Theodore F., additional, Valdez, Tulio A., additional, Vallejo, Jesus G., additional, Vanchiere, John A., additional, Vasconcelos, Pedro Fernando da C., additional, Velarde, Jorge J., additional, Versalovic, James, additional, Wald, Ellen R., additional, Walsh, Douglas S., additional, Walsh, Edward E., additional, Walsh, Thomas J., additional, Ward, Mark A., additional, Ward, Richard L., additional, Weinberg, Michelle, additional, Welliver, Robert C., additional, Wheeler, J. Gary, additional, White, A. Clinton, additional, Whitworth, Suzanne, additional, Wiedermann, Bernhard L., additional, Williams-Bouyer, Natalie, additional, Wittner, Murray, additional, Woods, Charles R., additional, Yen, Kimberly G., additional, Yogev, Ram, additional, Young, Edward J., additional, and Zaoutis, Theoklis E., additional

Published

2009

20. TRYPANOSOMIASIS

Author

Garcia, Lynne S., primary, Ross, Lawrence A., additional, Wittner, Murray, additional, and Tanowitz, Herbert B., additional

Published

2009

21. Introduction to Tapeworm Infections

Author

WITTNER, MURRAY, primary, WHITE, CLINTON, additional, and TANOWITZ, HERBERT B., additional

Published

2006

22. Cysticercosis

Author

GARCIA, HECTOR H., primary, WITTNER, MURRAY, additional, COYLE, CHRISTINA M., additional, TANOWITZ, HERBERT B., additional, and WHITE Jr., A. CLINTON, additional

Published

2001

23. Taenia and Other Tapeworms

Author

WITTNER, MURRAY, primary and TANOWITZ, HERBERT B., additional

Published

1996

24. Functional genomic fabrics are remodeled in a mouse model of Chagasic cardiomyopathy and restored following cell therapy.

Author

Iacobas DA, Iacobas S, Tanowitz HB, Campos de Carvalho A, and Spray DC

Subjects

Animals, Disease Models, Animal, Gene Expression Profiling, Gene Expression Regulation, Male, Mice, Mice, Inbred C57BL, Myocardium metabolism, Myocardium pathology, Transcriptome genetics, Cell- and Tissue-Based Therapy, Chagas Cardiomyopathy genetics, Chagas Cardiomyopathy therapy, Gene Regulatory Networks, Trypanosoma cruzi physiology

Abstract

We previously found that, in a mouse model of Chagas cardiomyopathy, 18% of the 9390 quantified unigenes were significantly regulated by Trypanosoma cruzi infection. However, treatment with bone marrow-derived mononuclear cells (MNCs) resulted in 84% transcriptomic recovery. We have applied new algorithms to reanalyze these datasets with respect to specific pathways [Chagas disease (CHAGAS), cardiac muscle contraction (CMC) and chemokine signaling (CCS)]. In addition to the levels of expression of individual genes we also calculated gene expression variability and coordination of expression of each gene with all others. These additional measures revealed changes in the control of transcript abundances and gene networking in CHAGAS and restoration following MNC treatment, not accessible using the conventional approach limited to the average expression levels. Moreover, our weighted pathway regulation analysis incorporated the contributions of all affected genes, eliminating the arbitrary cut-off criteria of fold-change and/or p-value for significantly regulated genes. The new analyses revealed that T. cruzi infection had large transcriptomic consequences for the CMC pathway and triggered a huge cytokine signaling. Remarkably, MNC therapy not only restored normal expression levels of numerous genes, but it also recovered most of the CHAGAS, CMC and CCS fabrics that were altered by the infection., (Copyright © 2017 Institut Pasteur. Published by Elsevier Masson SAS. All rights reserved.)

Published

2018

25. Rapidly progressive course of Trypanosoma cruzi infection in mice heterozygous for hexamethylene bis-acetamide inducible 1 (Hexim1) gene.

Author

Mascareno E, Gupta R, Martello LA, Dhar-Mascareno M, Salciccioli L, Beckles D, Walsh MG, Machado FS, Tanowitz HB, and Haseeb MA

Subjects

Animals, Chagas Cardiomyopathy immunology, Chagas Cardiomyopathy parasitology, Chagas Cardiomyopathy physiopathology, Cytokines biosynthesis, Disease Models, Animal, Heart physiopathology, Inflammation metabolism, Intestines immunology, Intestines pathology, Lung immunology, Lung pathology, Male, Mice, Mice, Inbred C57BL, Myocardium immunology, Myocardium pathology, Phosphorylation, RNA-Binding Proteins, Smad3 Protein metabolism, Spleen pathology, Chagas Cardiomyopathy pathology, Transcription Factors genetics, Trypanosoma cruzi pathogenicity

Abstract

Infection with Trypanosoma cruzi causes Chagas disease and results in myocardial inflammation and cardiomyopathy. Downregulated Hexim1 expression, as in Hexim1 +/- mice, reduces cardiac inflammation and fibrosis following ischemic stress. We asked whether reduced expression of Hexim1 would also afford protection against T. cruzi-induced cardiomyopathy. C57BL/6J (wild type - WT) and Hexim1 +/- mice were infected with sub-lethal doses of T. cruzi (Brazil strain), and cardiac function, serologic markers of inflammation and tissue pathology were examined. Infected Hexim1 +/- mice had compromised cardiac function, altered expression of both pro- and anti-inflammatory cytokines, and increased inflammation and fibrosis. Cardiac failure was evidenced by severely diminished heart rate, compensatory increase in respiratory rate, and abnormally high left ventricular mass with severe transmural inflammation. Lungs displayed intense peribronchial inflammation and fibrosis extending into the parenchyma. We also observed Smad3-serine 208 phosphorylation in hearts and lungs of infected mice, suggesting increased TGF-β signaling pathway activity. This was more pronounced in Hexim1 +/- mice and correlated with increased fibrosis in these tissues. Conspicuous splenomegaly in the Hexim1 +/- mice most likely resulted from the observed extensive white pulp expansion. T. cruzi infection induced colonic dilatation and marked villous atrophy in both the WT and Hexim1 +/- mice but more so in the latter. The profound exacerbation of pathologic findings suggests a protective role for Hexim1 in T. cruzi infection., (Copyright © 2017 Institut Pasteur. Published by Elsevier Masson SAS. All rights reserved.)

Published

2018

26. Endothelin-1 Treatment Induces an Experimental Cerebral Malaria-Like Syndrome in C57BL/6 Mice Infected with Plasmodium berghei NK65.

Author

Martins YC, Freeman BD, Akide Ndunge OB, Weiss LM, Tanowitz HB, and Desruisseaux MS

Subjects

Animals, Blood-Brain Barrier drug effects, Brain pathology, Cell Adhesion, Disease Models, Animal, Endothelin-1 therapeutic use, Endothelium, Vascular pathology, Female, Leukocytes pathology, Malaria, Cerebral drug therapy, Mice, Mice, Inbred C57BL, Parasitemia, Endothelin-1 adverse effects, Malaria, Cerebral pathology, Plasmodium berghei physiology

Abstract

Plasmodium berghei ANKA infection of C57BL/6 mice is a widely used model of experimental cerebral malaria (ECM). By contrast, the nonneurotropic P. berghei NK65 (PbN) causes severe malarial disease in C57BL/6 mice but does not cause ECM. Previous studies suggest that endothelin-1 (ET-1) contributes to the pathogenesis of ECM. In this study, we characterize the role of ET-1 on ECM vascular dysfunction. Mice infected with 10 6 PbN-parasitized red blood cells were treated with either ET-1 or saline from 2 to 8 days postinfection (dpi). Plasmodium berghei ANKA-infected mice served as the positive control. ET-1-treated PbN-infected mice exhibited neurological signs, hypothermia, and behavioral alterations characteristic of ECM, dying 4 to 8 dpi. Parasitemia was not affected by ET-1 treatment. Saline-treated PbN-infected mice did not display ECM, surviving until 12 dpi. ET-1-treated PbN-infected mice displayed leukocyte adhesion to the vascular endothelia and petechial hemorrhages throughout the brain at 6 dpi. Intravital microscopic images demonstrated significant brain arteriolar vessel constriction, decreased functional capillary density, and increased blood-brain barrier permeability. These alterations were not present in either ET-1-treated uninfected or saline-treated PbN-infected mice. In summary, ET-1 treatment of PbN-infected mice induced an ECM-like syndrome, causing brain vasoconstriction, adherence of activated leukocytes in the cerebral microvasculature, and blood-brain barrier leakage, indicating that ET-1 is involved in the genesis of brain microvascular alterations that are the hallmark of ECM., (Copyright © 2016 American Society for Investigative Pathology. Published by Elsevier Inc. All rights reserved.)

Published

2016

27. Suppressor of cytokine signaling 2 modulates the immune response profile and development of experimental cerebral malaria.

Author

Brant F, Miranda AS, Esper L, Gualdrón-López M, Cisalpino D, de Souza DDG, Rachid MA, Tanowitz HB, Teixeira MM, Teixeira AL, and Machado FS

Subjects

Animals, Brain metabolism, Brain-Derived Neurotrophic Factor metabolism, Cytokines metabolism, Disease Models, Animal, Female, Malaria, Cerebral metabolism, Malaria, Cerebral parasitology, Malaria, Cerebral therapy, Mice, Mice, Inbred C57BL, Mice, Knockout, Nerve Growth Factors metabolism, Plasmodium berghei isolation & purification, Spleen metabolism, Suppressor of Cytokine Signaling Proteins antagonists & inhibitors, Suppressor of Cytokine Signaling Proteins deficiency, Suppressor of Cytokine Signaling Proteins metabolism, T-Lymphocytes, Regulatory metabolism, Th17 Cells metabolism, Transforming Growth Factor beta metabolism, Malaria, Cerebral immunology, Suppressor of Cytokine Signaling Proteins immunology

Abstract

Plasmodium falciparum infection results in severe malaria in humans, affecting various organs, including the liver, spleen and brain, and resulting in high morbidity and mortality. The Plasmodium berghei ANKA (PbA) infection in mice closely recapitulates many aspects of human cerebral malaria (CM); thus, this model has been used to investigate the pathogenesis of CM. Suppressor of cytokine signaling 2 (SOCS2), an intracellular protein induced by cytokines and hormones, modulates the immune response, neural development, neurogenesis and neurotrophic pathways. However, the role of SOCS2 during CM remains unknown. SOCS2 knockout (SOCS2(-/-)) mice infected with PbA show an initial resistance to infection with reduced parasitemia and production of TNF, TGF-β, IL-12 and IL-17 in the brain. Interestingly, in the late phase of infection, SOCS2(-/-) mice display increased parasitemia and reduced Treg cell infiltration, associated with enhanced levels of Th1 and Th17 cells and related cytokines IL-17, IL-6, and TGF-β in the brain. A significant reduction in protective neurotrophic factors, such as glial cell line-derived neurotrophic factor (GDNF) and brain-derived neurotrophic factor (BDNF), was also observed. Moreover, the molecular alterations in the brain of infected SOCS2(-/-) mice were associated with anxiety-related behaviors and cognition impairment. Mechanistically, these results revealed enhanced nitric oxide (NO) production in PbA-infected SOCS2(-/-) mice, and the inhibition of NO synthesis through l-NAME led to a marked decrease in survival, the disruption of parasitemia control and more pronounced anxiety-like behavior. Treatment with l-NAME also shifted the levels of Th1, Th7 and Treg cells in the brains of infected SOCS2(-/-) mice to the background levels observed in infected WT, with remarkable exception of increased CD8(+)IFN(+) T cells and inflammatory monocytes. These results indicate that SOCS2 plays a dual role during PbA infection, being detrimental in the control of the parasite replication but crucial in the regulation of the immune response and production of neurotrophic factors. Here, we provided strong evidence of a critical relationship between SOCS2 and NO in the orchestration of the immune response and development of CM during PbA infection., (Copyright © 2016 Elsevier Inc. All rights reserved.)

Published

2016

28. Trypanosoma cruzi invasion is associated with trogocytosis.

Author

Mukherjee S, Mukhopadhyay A, Andriani G, Machado FS, Ashton AW, Huang H, Weiss LM, and Tanowitz HB

Subjects

Animals, Cells, Cultured, Humans, Protein Transport, Rats, Cell Membrane metabolism, Host-Pathogen Interactions, Protozoan Proteins metabolism, Trypanosoma cruzi physiology

Abstract

Trogocytosis was originally thought to be restricted to the interaction of cells of the immune system with cancer cells. Such membrane exchanges are probably a general process in cell biology, and membrane exchange has been demonstrated to occur between non-immune cells within an organism. Herein, we report that membrane and protein exchange, consistent with trogocytosis, between Trypanosoma cruzi (both the Brazil and Tulahuen strains) and the mammalian cells it infects. Transfer of labeled membrane patches was monitored by labeling of either parasites or host cells, i.e. human foreskin fibroblasts and rat myoblasts. Trypomastigotes and amastigotes transferred specific surface glycoproteins to the host cells along with membranes. Exchange of membranes between the parasite and host cells occurred during successful invasion. Extracellular amastigotes did not transfer membrane patches and were did not transfer either membranes or proteins to the host cells. Membrane exchange was also found to occur between interacting epimastigotes in cell-free culture and may be important in parasite-parasite interactions as well. Further studies should provide new insights into pathogenesis and provide targets for therapeutic intervention., (Copyright © 2014 Institut Pasteur. Published by Elsevier Masson SAS. All rights reserved.)

Published

2015

29. Central nervous system manifestations of Angiostrongylus cantonensis infection.

Author

Martins YC, Tanowitz HB, and Kazacos KR

Subjects

Animals, Asia epidemiology, Encephalomyelitis prevention & control, Encephalomyelitis therapy, Eosinophilia prevention & control, Eosinophilia therapy, Humans, Infectious Encephalitis prevention & control, Infectious Encephalitis therapy, Larva physiology, Meningitis prevention & control, Meningitis therapy, Strongylida Infections prevention & control, Strongylida Infections therapy, Angiostrongylus cantonensis physiology, Encephalomyelitis epidemiology, Eosinophilia epidemiology, Infectious Encephalitis epidemiology, Life Cycle Stages, Meningitis epidemiology, Strongylida Infections epidemiology

Abstract

Over 20 species of Angiostrongylus have been described from around the world, but only Angiostrongylus cantonensis has been confirmed to cause central nervous system disease in humans. A neurotropic parasite that matures in the pulmonary arteries of rats, A. cantonensis is the most common cause of eosinophilic meningitis in southern Asia and the Pacific and Caribbean islands. The parasite can also cause encephalitis/encephalomyelitis and rarely ocular angiostrongyliasis. The present paper reviews the life cycle, epidemiology, pathogenesis, clinical features, diagnosis, treatment, prevention and prognosis of A. cantonesis infection. Emphasis is given on the spectrum of central nervous system manifestations and disease pathogenesis., (Copyright © 2014 Elsevier B.V. All rights reserved.)

Published

2015

30. Endothelin-1 and its role in the pathogenesis of infectious diseases.

Author

Freeman BD, Machado FS, Tanowitz HB, and Desruisseaux MS

Subjects

Animals, Humans, Communicable Diseases etiology, Communicable Diseases metabolism, Endothelin-1 metabolism

Abstract

Endothelins are potent regulators of vascular tone, which also have mitogenic, apoptotic, and immunomodulatory properties (Rubanyi and Polokoff, 1994; Kedzierski and Yanagisawa, 2001; Bagnato et al., 2011). Three isoforms of endothelin have been identified to date, with endothelin-1 (ET-1) being the best studied. ET-1 is classically considered a potent vasoconstrictor. However, in addition to the effects of ET-1 on vascular smooth muscle cells, the peptide is increasingly recognized as a pro-inflammatory cytokine (Teder and Noble, 2000; Sessa et al., 1991). ET-1 causes platelet aggregation and plays a role in the increased expression of leukocyte adhesion molecules, the synthesis of inflammatory mediators contributing to vascular dysfunction. High levels of ET-1 are found in alveolar macrophages, leukocytes (Sessa et al., 1991) and fibroblasts (Gu et al., 1991). Clinical and experimental data indicate that ET-1 is involved in the pathogenesis of sepsis (Tschaikowsky et al., 2000; Goto et al., 2012), viral and bacterial pneumonia (Schuetz et al., 2008; Samransamruajkit et al., 2002), Rickettsia conorii infections (Davi et al., 1995), Chagas disease (Petkova et al., 2000, 2001), and severe malaria (Dai et al., 2012; Machado et al., 2006; Wenisch et al., 1996a; Dietmann et al., 2008). In this minireview, we will discuss the role of endothelin in the pathogenesis of infectious processes., (Copyright © 2014 Elsevier Inc. All rights reserved.)

Published

2014

31. Adipocytes in both brown and white adipose tissue of adult mice are functionally connected via gap junctions: implications for Chagas disease.

Author

Burke S, Nagajyothi F, Thi MM, Hanani M, Scherer PE, Tanowitz HB, and Spray DC

Subjects

Animals, Disease Models, Animal, Gene Expression Profiling, Host-Pathogen Interactions, Male, Mice, Adipocytes, Brown physiology, Adipocytes, White physiology, Cell Communication, Chagas Disease pathology, Connexin 43 analysis, Gap Junctions physiology, Trypanosoma cruzi growth & development

Abstract

Adipose tissue serves as a host reservoir for the protozoan Trypanosoma cruzi, the causative organism in Chagas disease. Gap junctions interconnect cells of most tissues, serving to synchronize cell activities including secretion in glandular tissue, and we have previously demonstrated that gap junctions are altered in various tissues and cells infected with T. cruzi. Herein, we examined the gap junction protein connexin 43 (Cx43) expression in infected adipose tissues. Adipose tissue is the largest endocrine organ of the body and is also involved in other physiological functions. In mammals, it is primarily composed of white adipocytes. Although gap junctions are a prominent feature of brown adipocytes, they have not been explored extensively in white adipocytes, especially in the setting of infection. Thus, we examined functional coupling in both white and brown adipocytes in mice. Injection of electrical current or the dye Lucifer Yellow into adipocytes within fat tissue spread to adjacent cells, which was reduced by treatment with agents known to block gap junctions. Moreover, Cx43 was detected in both brown and white fat tissue. At thirty and ninety days post-infection, Cx43 was downregulated in brown adipocytes and upregulated in white adipocytes. Gap junction-mediated intercellular communication likely contributes to hormone secretion and other functions in white adipose tissue and to nonshivering thermogenesis in brown fat, and modulation of the coupling by T. cruzi infection is expected to impact these functions., (Copyright © 2014. Published by Elsevier Masson SAS.)

Published

2014

32. Molecular imaging, biodistribution and efficacy of mesenchymal bone marrow cell therapy in a mouse model of Chagas disease.

Author

Jasmin, Jelicks LA, Tanowitz HB, Peters VM, Mendez-Otero R, de Carvalho ACC, and Spray DC

Subjects

Animals, Chemokine CXCL12 analysis, Cytokines blood, Disease Models, Animal, Heart diagnostic imaging, Magnetic Resonance Imaging, Male, Mice, Molecular Imaging, Myocardium pathology, Proto-Oncogene Proteins c-kit analysis, Radiography, Treatment Outcome, Bone Marrow Transplantation methods, Chagas Disease pathology, Chagas Disease therapy, Mesenchymal Stem Cell Transplantation methods

Abstract

Chagasic cardiomyopathy, resulting from infection with the parasite Trypanosoma cruzi, was discovered more than a century ago and remains an incurable disease. Due to the unique properties of mesenchymal stem cells (MSC) we hypothesized that these cells could have therapeutic potential for chagasic cardiomyopathy. Recently, our group pioneered use of nanoparticle-labeled MSC to correlate migration with its effect in an acute Chagas disease model. We expanded our investigation into a chronic model and performed more comprehensive assays. Infected mice were treated with nanoparticle-labeled MSC and their migration was correlated with alterations in heart morphology, metalloproteinase activity, and expression of several proteins. The vast majority of labeled MSC migrated to liver, lungs and spleen whereas a small number of cells migrated to chagasic hearts. Magnetic resonance imaging demonstrated that MSC therapy reduced heart dilatation. Additionally metalloproteinase activity was higher in heart and other organs of infected mice. Protein expression analyses revealed that connexin 43, laminin γ1, IL-10 and INF-γ were affected by the disease and recovered after cell therapy. Interestingly, MSC therapy led to upregulation of SDF-1 and c-kit in the hearts. The beneficial effect of MSC therapy in Chagas disease is likely due to an indirect action of the cells of the heart, rather than the incorporation of large numbers of stem cells into working myocardium., (Copyright © 2014. Published by Elsevier Masson SAS.)

Published

2014

33. Role of dystrophin in acute Trypanosoma cruzi infection.

Author

Malvestio LM, Celes MR, Milanezi C, Silva JS, Jelicks LA, Tanowitz HB, Rossi MA, and Prado CM

Subjects

Acute Disease, Animals, Calpain metabolism, Dystrophin metabolism, Inflammation metabolism, Male, Mice, Mice, Inbred C57BL, Myocytes, Cardiac immunology, Myocytes, Cardiac parasitology, NF-kappa B metabolism, Trypanosoma cruzi, Tumor Necrosis Factor-alpha metabolism, Chagas Disease metabolism, Dystrophin physiology

Abstract

Previous studies have demonstrated loss/reduction of dystrophin in cardiomyocytes in both acute and chronic stages of experimental Trypanosoma cruzi (T. cruzi) infection in mice. The mechanisms responsible for dystrophin disruption in the hearts of mice acutely infected with T. cruzi are not completely understood. The present in vivo and in vitro studies were undertaken to evaluate the role of inflammation in dystrophin disruption and its correlation with the high mortality rate during acute infection. C57BL/6 mice were infected with T. cruzi and killed 14, 20 and 26 days post infection (dpi). The intensity of inflammation, cardiac expression of dystrophin, calpain-1, NF-κB, TNF-α, and sarcolemmal permeability were evaluated. Cultured neonatal murine cardiomyocytes were incubated with serum, collected at the peak of cytokine production and free of parasites, from T. cruzi-infected mice and dystrophin, calpain-1, and NF-κB expression analyzed. Dystrophin disruption occurs at the peak of mortality and inflammation and is associated with increased expression of calpain-1, TNF-α, NF-κB, and increased sarcolemmal permeability in the heart of T. cruzi-infected mice at 20 dpi confirmed by in vitro studies. The peak of mortality occurred only when significant loss of dystrophin in the hearts of infected animals occurred, highlighting the correlation between inflammation, dystrophin loss and mortality., (Copyright © 2014 Institut Pasteur. Published by Elsevier Masson SAS. All rights reserved.)

Published

2014

34. Alterations in glucose homeostasis in a murine model of Chagas disease.

Author

Nagajyothi F, Kuliawat R, Kusminski CM, Machado FS, Desruisseaux MS, Zhao D, Schwartz GJ, Huang H, Albanese C, Lisanti MP, Singh R, Li F, Weiss LM, Factor SM, Pessin JE, Scherer PE, and Tanowitz HB

Subjects

Adipose Tissue, White pathology, Animals, Blood Glucose metabolism, Chagas Disease blood, Chagas Disease parasitology, Chagas Disease pathology, Disease Models, Animal, Fluorescent Antibody Technique, Glucagon blood, Gluconeogenesis, Insulin blood, Liver metabolism, Liver parasitology, Liver pathology, Male, Mice, Pancreas parasitology, Pancreas pathology, Pancreas ultrastructure, Trypanosoma cruzi physiology, Chagas Disease metabolism, Glucose metabolism, Homeostasis

Abstract

Chagas disease, caused by Trypanosoma cruzi, is an important cause of morbidity and mortality primarily resulting from cardiac dysfunction, although T. cruzi infection results in inflammation and cell destruction in many organs. We found that T. cruzi (Brazil strain) infection of mice results in pancreatic inflammation and parasitism within pancreatic β-cells with apparent sparing of α cells and leads to the disruption of pancreatic islet architecture, β-cell dysfunction, and surprisingly, hypoglycemia. Blood glucose and insulin levels were reduced in infected mice during acute infection and insulin levels remained low into the chronic phase. In response to the hypoglycemia, glucagon levels 30 days postinfection were elevated, indicating normal α-cell function. Administration of L-arginine and a β-adrenergic receptor agonist (CL316, 243, respectively) resulted in a diminished insulin response during the acute and chronic phases. Insulin granules were docked, but the lack of insulin secretion suggested an inability of granules to fuse at the plasma membrane of pancreatic β-cells. In the liver, there was a concomitant reduced expression of glucose-6-phosphatase mRNA and glucose production from pyruvate (pyruvate tolerance test), demonstrating defective hepatic gluconeogenesis as a cause for the T. cruzi-induced hypoglycemia, despite reduced insulin, but elevated glucagon levels. The data establishes a complex, multi-tissue relationship between T. cruzi infection, Chagas disease, and host glucose homeostasis., (Copyright © 2013 American Society for Investigative Pathology. Published by Elsevier Inc. All rights reserved.)

Published

2013

35. Small animal imaging of human disease: from bench to bedside and back.

Author

Jelicks LA, Tanowitz HB, and Albanese C

Subjects

Animals, Humans, Diagnostic Imaging methods, Disease, Translational Research, Biomedical

Published

2013

36. Imaging of small-animal models of infectious diseases.

Author

Jelicks LA, Lisanti MP, Machado FS, Weiss LM, Tanowitz HB, and Desruisseaux MS

Subjects

Animals, Communicable Diseases diagnosis, Diagnostic Imaging methods, Disease Models, Animal

Abstract

Infectious diseases are the second leading cause of death worldwide. Noninvasive small-animal imaging has become an important research tool for preclinical studies of infectious diseases. Imaging studies permit enhanced information through longitudinal studies of the same animal during the infection. Herein, we briefly review recent studies of animal models of infectious disease that have used imaging modalities., (Copyright © 2013 American Society for Investigative Pathology. Published by Elsevier Inc. All rights reserved.)

Published

2013

37. Other helminthic infections: Ascariasis, Dracontiasis, Lagochilascariasis, Micronemiasis.

Author

Tanowitz HB and Machado FS

Subjects

Animals, Ascariasis veterinary, Ascaris pathogenicity, Dracunculus Nematode, Humans, Nematoda physiology, Neglected Diseases diagnosis, Neglected Diseases therapy, Neglected Diseases veterinary, Nematoda pathogenicity, Nematode Infections diagnosis, Nematode Infections therapy, Nematode Infections veterinary

Abstract

There are a number of nematode infections that rarely involve the central nervous system. Ascaris lumbricoides and the pig nematode A. suum have been associated with encephalitis. Adult Dracunculus medinensis may invade the spinal cord resulting in epidural abscess and paralysis. Lagochiloascaris spp. are free-living nematodes reported mainly in Brazil. Lagochiloascaris minor infection may cause diseases of the head and neck and the central nervous system. Halicephalobus (Micronema) parasitizes horses and may also involve the human central nervous system., (Copyright © 2013 Elsevier B.V. All rights reserved.)

Published

2013

38. Cerebral malaria: we have come a long way.

Author

Shikani HJ, Freeman BD, Lisanti MP, Weiss LM, Tanowitz HB, and Desruisseaux MS

Subjects

Animals, Blood-Brain Barrier pathology, Humans, Inflammation pathology, Malaria, Cerebral diagnostic imaging, Malaria, Cerebral therapy, Neuroimaging, Radiography, Radionuclide Imaging, Signal Transduction, Vascular Diseases complications, Vascular Diseases pathology, Malaria, Cerebral pathology

Abstract

Despite decades of research, cerebral malaria remains one of the most serious complications of Plasmodium infection and is a significant burden in Sub-Saharan Africa, where, despite effective antiparasitic treatment, survivors develop long-term neurological sequelae. Although much remains to be discovered about the pathogenesis of cerebral malaria, The American Journal of Pathology has been seminal in presenting original research from both human and experimental models. These studies have afforded significant insight into the mechanism of cerebral damage in this devastating disease. The present review highlights information gleaned from these studies, especially in terms of their contributions to the understanding of cerebral malaria., (Copyright © 2012 American Society for Investigative Pathology. Published by Elsevier Inc. All rights reserved.)

Published

2012

39. The novel ETA receptor antagonist HJP-272 prevents cerebral microvascular hemorrhage in cerebral malaria and synergistically improves survival in combination with an artemisinin derivative.

Author

Dai M, Freeman B, Bruno FP, Shikani HJ, Tanowitz HB, Weiss LM, Reznik SE, Stephani RA, and Desruisseaux MS

Subjects

Animals, Antimalarials administration & dosage, Antimalarials pharmacology, Artemether, Artemisinins administration & dosage, Cerebral Hemorrhage parasitology, Drug Synergism, Drug Therapy, Combination, Endothelin-1 metabolism, Female, Hydroxyquinolines administration & dosage, Malaria, Cerebral complications, Mice, Mice, Inbred C57BL, Microvessels pathology, Parasitemia drug therapy, Plasmodium berghei isolation & purification, Random Allocation, Survival, Artemisinins pharmacology, Cerebral Hemorrhage prevention & control, Endothelin A Receptor Antagonists, Hydroxyquinolines pharmacology, Malaria, Cerebral drug therapy

Abstract

Aim: To investigate the association between vasculopathy and survival during experimental cerebral malaria (ECM), and to determine whether targeting the endothelin-1 (ET-1) pathway alone or in combination with the anti-malaria drug artemether (a semi-synthetic derivative of artemisinin) will improve microvascular hemorrhage and survival., Main Methods: C57BL/6 mice infected with Plasmodium berghei ANKA (PbA) were randomly assigned to four groups: no treatment, artemether treated, ET(A) receptor antagonist (HJP-272) treated, or HJP-272 and artemether treated. The uninfected control mice were treated with HJP-272 and artemether. We analyzed survival, cerebral hemorrhage, weight change, blood glucose levels and parasitemia., Key Findings: Our studies demonstrated decreased brain hemorrhage in PbA-infected (ECM) mice treated when HJP-272, a 1,3,6-trisubstituted-2-carboxy-quinol-4-one novel ET(A) receptor antagonist synthesized by our group, is used in conjunction with artemether, an anti-malarial agent. In addition, despite adversely affecting parasitemia and weight in non-artemether treated infected mice, HJP-272, seemed to confer some survival benefit when used as adjunctive therapy, though this did not reach significance., Significance: Previous studies demonstrate that the endothelin pathway is associated with vasculopathy, neuronal injury and inflammation in ECM. As demonstrated here, components of the ET-1 pathway may be important targets for adjunctive therapy in ECM, and may help in preventing hemorrhage and in improving survival when used as adjunctive therapy during malaria infection. The data presented suggest that our novel agent, HJP-272, may ameliorate alterations in the vasculature which can potentially lead to inflammation, neurological dysfunction, and subsequent death in mice with ECM., (Copyright © 2012 Elsevier Inc. All rights reserved.)

Published

2012

40. Role of SOCS2 in modulating heart damage and function in a murine model of acute Chagas disease.

Author

Esper L, Roman-Campos D, Lara A, Brant F, Castro LL, Barroso A, Araujo RR, Vieira LQ, Mukherjee S, Gomes ER, Rocha NN, Ramos IP, Lisanti MP, Campos CF, Arantes RM, Guatimosim S, Weiss LM, Cruz JS, Tanowitz HB, Teixeira MM, and Machado FS

Subjects

Acute Disease, Animals, Arachidonate 5-Lipoxygenase physiology, Cells, Cultured, Chagas Cardiomyopathy parasitology, Chagas Cardiomyopathy pathology, Chagas Cardiomyopathy physiopathology, Cytokines biosynthesis, Disease Models, Animal, Heart parasitology, Lipoxins metabolism, Macrophages immunology, Mice, Mice, Inbred C57BL, Mice, Knockout, Myocytes, Cardiac immunology, Parasite Load, Parasitemia immunology, Patch-Clamp Techniques, Suppressor of Cytokine Signaling Proteins deficiency, T-Lymphocyte Subsets immunology, Trypanosoma cruzi isolation & purification, Chagas Cardiomyopathy immunology, Suppressor of Cytokine Signaling Proteins immunology

Abstract

Infection with Trypanosoma cruzi induces inflammation, which limits parasite proliferation but may result in chagasic heart disease. Suppressor of cytokine signaling 2 (SOCS2) is a regulator of immune responses and may therefore participate in the pathogenesis of T. cruzi infection. SOCS2 is expressed during T. cruzi infection, and its expression is partially reduced in infected 5-lipoxygenase-deficient [knockout (KO)] mice. In SOCS2 KO mice, there was a reduction in both parasitemia and the expression of interferon-γ (IFN-γ), tumor necrosis factor-α (TNF-α), IL-6, IL-10, SOCS1, and SOCS3 in the spleen. Expression of IFN-γ, TNF-α, SOCS1, and SOCS3 was also reduced in the hearts of infected SOCS2 KO mice. There was an increase in the generation and expansion of T regulatory (Treg) cells and a decrease in the number of memory cells in T. cruzi-infected SOCS2 KO mice. Levels of lipoxinA(4) (LXA(4)) increased in these mice. Echocardiography studies demonstrated an impairment of cardiac function in T. cruzi-infected SOCS2 KO mice. There were also changes in calcium handling and in action potential waveforms, and reduced outward potassium currents in isolated cardiac myocytes. Our data suggest that reductions of inflammation and parasitemia in infected SOCS2-deficient mice may be secondary to the increases in Treg cells and LXA(4) levels. This occurs at the cost of greater infection-associated heart dysfunction, highlighting the relevance of balanced inflammatory and immune responses in preventing severe T. cruzi-induced disease., (Copyright © 2012 American Society for Investigative Pathology. Published by Elsevier Inc. All rights reserved.)

Published

2012

41. Translational discoveries, personalized medicine, and living biobanks of the future.

Author

Lisanti MP and Tanowitz HB

Subjects

Humans, Periodicals as Topic trends, Publishing trends, Translational Research, Biomedical methods, Biological Specimen Banks trends, Pathology trends, Precision Medicine trends, Translational Research, Biomedical trends

Published

2012

42. Early dystrophin disruption in the pathogenesis of experimental chronic Chagas cardiomyopathy.

Author

Prado CM, Celes MR, Malvestio LM, Campos EC, Silva JS, Jelicks LA, Tanowitz HB, and Rossi MA

Subjects

Animals, Chagas Cardiomyopathy diagnostic imaging, Chagas Cardiomyopathy pathology, Magnetic Resonance Imaging, Male, Mice, Mice, Inbred C3H, Myocarditis metabolism, Myocarditis parasitology, Myocarditis pathology, Myocardium metabolism, Myocardium pathology, Parasitemia diagnostic imaging, Parasitemia metabolism, Parasitemia pathology, Trypanosoma cruzi, Ultrasonography, Chagas Cardiomyopathy metabolism, Dystrophin metabolism

Abstract

Chronic Chagas cardiomyopathy evolves over a long period of time after initial infection by Trypanosoma cruzi. Similarly, a cardiomyopathy appears later in life in muscular dystrophies. This study tested the hypothesis that dystrophin levels are decreased in the early stage of T. cruzi-infected mice that precedes the later development of a cardiomyopathy. CD1 mice were infected with T. cruzi (Brazil strain), killed at 30 and 100 days post infection (dpi), and the intensity of inflammation, percentage of interstitial fibrosis, and dystrophin levels evaluated. Echocardiography and magnetic resonance imaging data were evaluated from 15 to 100 dpi. At 30 dpi an intense acute myocarditis with ruptured or intact intracellular parasite nests was observed. At 100 dpi a mild chronic fibrosing myocarditis was detected without parasites in the myocardium. Dystrophin was focally reduced or completely lost in cardiomyocytes at 30 dpi, with the reduction maintained up to 100 dpi. Concurrently, ejection fraction was reduced and the right ventricle was dilated. These findings support the hypothesis that the initial parasitic infection-induced myocardial dystrophin reduction/loss, maintained over time, might be essential to the late development of a cardiomyopathy in mice., (Copyright © 2011 Institut Pasteur. Published by Elsevier Masson SAS. All rights reserved.)

Published

2012

43. Evidence for Trypanosoma cruzi in adipose tissue in human chronic Chagas disease.

Author

Ferreira AV, Segatto M, Menezes Z, Macedo AM, Gelape C, de Oliveira Andrade L, Nagajyothi F, Scherer PE, Teixeira MM, and Tanowitz HB

Subjects

Aged, Animals, Case-Control Studies, Chronic Disease, DNA, Kinetoplast analysis, Female, Fluorescent Antibody Technique, Heart Block parasitology, Humans, Male, Mice, Mice, Inbred BALB C, Middle Aged, Polymerase Chain Reaction, Polymorphism, Restriction Fragment Length, Trypanosoma cruzi genetics, Adipocytes, White parasitology, Adipose Tissue parasitology, Chagas Disease parasitology, Heart parasitology, Trypanosoma cruzi isolation & purification

Abstract

Trypanosoma cruzi the cause of Chagas disease persists in tissues of infected experimental animals and humans. Here we demonstrate the persistence of the parasite in adipose tissue from of three of 10 elderly seropositive patients with chronic chagasic heart disease. Nine control patients had no parasites in the fat. We also demonstrate that T. cruzi parasitizes primary adipocytes in vitro. Thus, in humans as in mice the parasite may persist in adipose tissue for decades and become a reservoir of infection., (Copyright © 2011 Institut Pasteur. Published by Elsevier Masson SAS. All rights reserved.)

Published

2011

44. Stromal-epithelial metabolic coupling in cancer: integrating autophagy and metabolism in the tumor microenvironment.

Author

Martinez-Outschoorn UE, Pavlides S, Howell A, Pestell RG, Tanowitz HB, Sotgia F, and Lisanti MP

Subjects

Animals, Autophagy, Biomarkers, Tumor, Cell Hypoxia, Cell Line, Tumor, Coculture Techniques, Female, Glutamine metabolism, Glycolysis, Humans, Mice, Models, Biological, Neoplasms pathology, Oxidative Stress, Reactive Oxygen Species metabolism, Caveolin 1 metabolism, Fibroblasts metabolism, Mitochondria metabolism, Neoplasms metabolism, Stromal Cells metabolism, Tumor Microenvironment physiology

Abstract

Cancer cells do not exist as pure homogeneous populations in vivo. Instead they are embedded in "cancer cell nests" that are surrounded by stromal cells, especially cancer associated fibroblasts. Thus, it is not unreasonable to suspect that stromal fibroblasts could influence the metabolism of adjacent cancer cells, and visa versa. In accordance with this idea, we have recently proposed that the Warburg effect in cancer cells may be due to culturing cancer cells by themselves, out of their normal stromal context or tumor microenvironment. In fact, when cancer cells are co-cultured with fibroblasts, then cancer cells increase their mitochondrial mass, while fibroblasts lose their mitochondria. An in depth analysis of this phenomenon reveals that aggressive cancer cells are "parasites" that use oxidative stress as a "weapon" to extract nutrients from surrounding stromal cells. Oxidative stress in fibroblasts induces the autophagic destruction of mitochondria, by mitophagy. Then, stromal cells are forced to undergo aerobic glycolysis, and produce energy-rich nutrients (such as lactate and ketones) to "feed" cancer cells. This mechanism would allow cancer cells to seed anywhere, without blood vessels as a food source, as they could simply induce oxidative stress wherever they go, explaining how cancer cells survive during metastasis. We suggest that stromal catabolism, via autophagy and mitophagy, fuels the anabolic growth of tumor cells, promoting tumor progression and metastasis. We have previously termed this new paradigm "The Autophagic Tumor Stroma Model of Cancer Metabolism", or the "Reverse Warburg Effect". We also discuss how glutamine addiction (glutaminolysis) in cancer cells fits well with this new model, by promoting oxidative mitochondrial metabolism in aggressive cancer cells., (Copyright © 2011 Elsevier Ltd. All rights reserved.)

Published

2011

45. Persistent cognitive and motor deficits after successful antimalarial treatment in murine cerebral malaria.

Author

Dai M, Reznik SE, Spray DC, Weiss LM, Tanowitz HB, Gulinello M, and Desruisseaux MS

Subjects

Animals, Chloroquine administration & dosage, Disease Models, Animal, Female, Malaria, Cerebral parasitology, Mice, Mice, Inbred C57BL, Antimalarials administration & dosage, Cognition Disorders physiopathology, Malaria, Cerebral complications, Malaria, Cerebral drug therapy, Motor Neuron Disease physiopathology, Plasmodium berghei pathogenicity

Abstract

Human cerebral malaria causes neurological and behavioral deficits which persist long after resolution of infection and clearance of parasites with antimalarial drugs. Previously, we demonstrated that during active infection, mice with cerebral malaria demonstrated negative behavioral outcomes. Here we used a chloroquine treatment model of cerebral malaria to determine whether these abnormal outcomes would be persistent in the mouse model. C57BL/6 mice were infected with Plasmodium berghei ANKA, and treated for ten days. After cessation of chloroquine, a comprehensive assessment of cognitive and motor function demonstrated persistence of abnormal behavioral outcomes, 10 days after successful eradication of parasites. Furthermore, these deficits were still evident forty days after cessation of chloroquine, indicating persistence long after successful treatment, a hallmark feature of human cerebral malaria. Thus, cognitive tests similar to those used in these mouse studies could facilitate the development of adjunctive therapies that can ameliorate adverse neurological outcomes in human cerebral malaria., (Copyright © 2010 Institut Pasteur. Published by Elsevier SAS. All rights reserved.)

Published

2010

46. Role of CCL3/MIP-1alpha and CCL5/RANTES during acute Trypanosoma cruzi infection in rats.

Author

Roffê E, Oliveira F, Souza AL, Pinho V, Souza DG, Souza PR, Russo RC, Santiago HC, Romanha AJ, Tanowitz HB, Valenzuela JG, and Teixeira MM

Subjects

Animals, Chagas Cardiomyopathy pathology, Heart parasitology, Myocardium pathology, Rats, Rats, Sprague-Dawley, Trypanosoma cruzi pathogenicity, Vaccines, DNA administration & dosage, Chagas Cardiomyopathy immunology, Chemokine CCL3 immunology, Chemokine CCL5 immunology, Trypanosoma cruzi immunology

Abstract

Chagas' disease is caused by Trypanosoma cruzi infection and is characterized by chronic fibrogenic inflammation and heart dysfunction. Chemokines are produced during infection and drive tissue inflammation. In rats, acute infection is characterized by intense myocarditis and regression of inflammation after control of parasitism. We investigated the role of CCL3 and CCL5 during infection by using DNA vaccination encoding for each chemokine separately or simultaneously. MetRANTES treatment was used to evaluate the role of CCR1 and CCR5, the receptors for CCL3 and CCL5. Vaccination with CCL3 or CCL5 increased heart parasitism and decreased local IFN-gamma production, but did not influence intensity of inflammation. Simultaneous treatment with both plasmids or treatment with MetRANTES enhanced cardiac inflammation, fibrosis and parasitism. In conclusion, chemokines CCL3 and CCL5 are relevant, but not essential, for control of T. cruzi infection in rats. On the other hand, combined blockade of these chemokines or their receptors enhanced tissue inflammation and fibrosis, clearly contrasting with available data in murine models of T. cruzi infection. These data reinforce the important role of chemokines during T. cruzi infection but suggest that caution must be taken when expanding the therapeutic modulation of the chemokine system in mice to the human infection., (Copyright 2010 Elsevier Masson SAS. All rights reserved.)

Published

2010

47. Acquired infection with Toxoplasma gondii in adult mice results in sensorimotor deficits but normal cognitive behavior despite widespread brain pathology.

Author

Gulinello M, Acquarone M, Kim JH, Spray DC, Barbosa HS, Sellers R, Tanowitz HB, and Weiss LM

Subjects

Animals, Brain parasitology, Cognition, Host-Parasite Interactions, Male, Mice, Mice, Inbred C57BL, Neuropsychological Tests, Psychomotor Performance, Sensation Disorders pathology, Social Behavior, Behavior, Animal, Brain pathology, Sensation Disorders parasitology, Toxoplasma, Toxoplasmosis, Animal pathology

Abstract

Toxoplasma gondii is a ubiquitous intracellular parasite which chronically infects 30-50% of the human population. While acquired infection is primarily asymptomatic several studies have suggested that such infections may contribute to neurological and psychiatric symptoms. Previous studies in rodents have demonstrated that T. gondii infection does not just kill its host, but alters the behavioral repertoire of an infected animal, making it more likely that predation with occur completing the parasite life cycle. The aim of the present study was to evaluate the behavioral changes in C57BL/6 mice chronically infected with the avirulent T. gondii (ME49, a Type II strain), in a comprehensive test battery. Infected mice demonstrated profound and widespread brain pathology, motor coordination and sensory deficits. In contrast, cognitive function, anxiety levels, social behavior and the motivation to explore novel objects were normal. The observed changes in behavior did not represent "gross" brain damage or dysfunction and were not due to targeted destruction of specific areas of the brain. Such changes point out the subtle interaction of this parasite with its intermediate hosts and are consistent with ideas about increased predation being an outcome of infection.

Published

2010

48. Cerebral malaria: a vasculopathy.

Author

Desruisseaux MS, Machado FS, Weiss LM, Tanowitz HB, and Golightly LM

Subjects

Animals, Artemether, Artemisinins pharmacology, Artemisinins therapeutic use, Humans, Malaria, Cerebral drug therapy, Malaria, Cerebral parasitology, Malaria, Cerebral physiopathology, Mice, Nimodipine pharmacology, Nimodipine therapeutic use, Plasmodium berghei drug effects, Plasmodium berghei physiology, Vasospasm, Intracranial drug therapy, Vasospasm, Intracranial parasitology, Vasospasm, Intracranial physiopathology, Malaria, Cerebral complications, Vasospasm, Intracranial complications

Published

2010

49. Transcriptomic alterations in Trypanosoma cruzi-infected cardiac myocytes.

Author

Goldenberg RC, Iacobas DA, Iacobas S, Rocha LL, da Silva de Azevedo Fortes F, Vairo L, Nagajyothi F, Campos de Carvalho AC, Tanowitz HB, and Spray DC

Subjects

Animals, Animals, Newborn, Cells, Cultured, Chagas Cardiomyopathy parasitology, Gene Expression Regulation, Mice, Mice, Inbred C57BL, Oligonucleotide Array Sequence Analysis methods, Proteins genetics, Gene Expression Profiling, Myocytes, Cardiac metabolism, Myocytes, Cardiac parasitology, Proteins metabolism, Trypanosoma cruzi pathogenicity

Abstract

Trypanosoma cruzi infection is a major cause of cardiomyopathy. Previous gene profiling studies of infected mouse hearts have revealed prominent changes in gene expression within many functional pathways. This variety of transcriptomic changes in infected mice raises the question of whether gene expression alterations in whole hearts are due to changes in infected cardiac myocytes or other cells or even to systemic effects of the infection on the heart. We employed microarrays to examine infected cardiac myocyte cultures 48 h post-infection. Statistical comparison of gene expression levels of 7624 well annotated unigenes in four independent cultures of infected and uninfected myocytes detected substantial (>or=1.5 absolute fold changes) in 420 (5.5%) of the sampled genes. Major categories of affected genes included those involved in immune response, extracellular matrix and cell adhesion. These findings on infected cardiac myocytes in culture reveal that alterations in cardiac gene expression described in Chagas disease are the consequence of both direct infection of the myocytes themselves as well as resulting from the presence of other cell types in the myocardium and systemic effects of infection.

Published

2009

50. A reduction in Pten tumor suppressor activity promotes ErbB-2-induced mouse prostate adenocarcinoma formation through the activation of signaling cascades downstream of PDK1.

Author

Rodriguez OC, Lai EW, Vissapragada S, Cromelin C, Avetian M, Salinas P, Ramos H, Kallakury B, Casimiro M, Lisanti MP, Tanowitz HB, Pacak K, Glazer RI, Avantaggiati M, and Albanese C

Subjects

3-Phosphoinositide-Dependent Protein Kinases, Adenocarcinoma genetics, Animals, Blotting, Western, Cell Line, Tumor, Flow Cytometry, Humans, Image Processing, Computer-Assisted, Immunohistochemistry, Male, Mice, Mice, Transgenic, Prostatic Neoplasms genetics, Receptor, ErbB-2 genetics, Adenocarcinoma metabolism, PTEN Phosphohydrolase metabolism, Prostatic Neoplasms metabolism, Protein Serine-Threonine Kinases metabolism, Receptor, ErbB-2 metabolism, Signal Transduction physiology

Abstract

Loss of function at the Pten tumor-suppressor locus is a common genetic modification found in human prostate cancer. While recent in vivo and in vitro data support an important role of aberrant ErbB-2 signaling to clinically relevant prostate target genes, such as cyclin D1, the role of Pten in ErbB-2-induced prostate epithelial proliferation is not well understood. In the Pten-deficient prostate cancer cell line, LNCaP, restoration of Pten was able to inhibit ErbB-2- and heregulin-induced cell cycle progression, as well as cyclin D1 protein levels and promoter activity. Previously, we established that probasin-driven ErbB-2 transgenic mice presented with high-grade prostate intraepithelial neoplasia and increased nuclear cyclin D1 levels. We show that mono-allelic loss of pten in the probasin-driven-ErbB-2 model resulted in increased nuclear cyclin D1 and proliferating cell nuclear antigen levels and decreased disease latency compared to either individual genetic model and, unlike the probasin-driven-ErbB-2 mice, progression to adenocarcinoma. Activated 3-phosphoinositide-dependent protein kinase-1 was observed during cancer initiation combined with the activation of p70S6K (phospho-T389) and inactivation of the 4E-binding protein-1 (phosphorylated on T37/46) and was primarily restricted to those cases of prostate cancer that had progressed to adenocarcinoma. Activation of mTOR was not seen. Our data demonstrates that Pten functions downstream of ErbB-2 to restrict prostate epithelial transformation by blocking full activation of the PDK1 signaling cascade.

Published

2009